Self-assembled poly-catenanes from supramolecular toroidal building blocks

连锁 超分子化学 链烷 环面 纳米技术 分子 材料科学 纳米尺度 成核 结晶学 化学 化学物理 物理 有机化学 DNA 等离子体 量子力学 生物化学
作者
Sougata Datta,Yasuki Kato,Seiya Higashiharaguchi,Keisuke Aratsu,Atsushi Isobe,Takuho Saito,Deepak D. Prabhu,Yuichi Kitamoto,Martin J. Hollamby,Andrew J. Smith,Robert M. Dalgliesh,Najet Mahmoudi,Luca Pesce,Claudio Perego,Giovanni M. Pavan,Shiki Yagai
出处
期刊:Nature [Nature Portfolio]
卷期号:583 (7816): 400-405 被引量:320
标识
DOI:10.1038/s41586-020-2445-z
摘要

Mechanical interlocking of molecules (catenation) is a nontrivial challenge in modern synthetic chemistry and materials science1,2. One strategy to achieve catenation is the design of pre-annular molecules that are capable of both efficient cyclization and of pre-organizing another precursor to engage in subsequent interlocking3–9. This task is particularly difficult when the annular target is composed of a large ensemble of molecules, that is, when it is a supramolecular assembly. However, the construction of such unprecedented assemblies would enable the visualization of nontrivial nanotopologies through microscopy techniques, which would not only satisfy academic curiosity but also pave the way to the development of materials with nanotopology-derived properties. Here we report the synthesis of such a nanotopology using fibrous supramolecular assemblies with intrinsic curvature. Using a solvent-mixing strategy, we kinetically organized a molecule that can elongate into toroids with a radius of about 13 nanometres. Atomic force microscopy on the resulting nanoscale toroids revealed a high percentage of catenation, which is sufficient to yield ‘nanolympiadane’10, a nanoscale catenane composed of five interlocked toroids. Spectroscopic and theoretical studies suggested that this unusually high degree of catenation stems from the secondary nucleation of the precursor molecules around the toroids. By modifying the self-assembly protocol to promote ring closure and secondary nucleation, a maximum catenation number of 22 was confirmed by atomic force microscopy. Nanoscale toroids with a high percentage of poly-catenation and radii of up to about 13 nm are kinetically organized using fibrous supramolecular assemblies with intrinsic curvature and a solvent-mixing strategy.
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